#!/usr/bin/env perl
#
# This file is part of the LibreOffice project.
#
# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.
#
# This file incorporates work covered by the following license notice:
#
# Licensed to the Apache Software Foundation (ASF) under one or more
# contributor license agreements. See the NOTICE file distributed
# with this work for additional information regarding copyright
# ownership. The ASF licenses this file to you under the Apache
# License, Version 2.0 (the "License"); you may not use this file
# except in compliance with the License. You may obtain a copy of
# the License at http://www.apache.org/licenses/LICENSE-2.0 .
#
# The following files must be available in a ./input subdir:
# <http://www.info.gov.hk/digital21/eng/hkscs/download/big5-iso.txt>
# <http://www.unicode.org/Public/MAPPINGS/OBSOLETE/EASTASIA/OTHER/BIG5.TXT>:
# "Unicode version: 1.1 Table version: 0.0d3 Date: 11 February 1994"
# Only used to track Unicode characters that are mapped from both Big5 and
# HKSCS.
# <http://www.unicode.org/Public/MAPPINGS/VENDORS/MICSFT/WINDOWS/CP950.TXT>:
# "Unicode version: 2.0 Table version: 2.01 Date: 1/7/2000"
# Only used to track Unicode characters that are mapped from both CP950 and
# HKSCS.
$surrogates = 0;
# set to 1 to allow mappings to Unicode beyond Plane 0
$id =
"Big5Hkscs2001";
sub isValidUtf32
{
my $utf32 = $_[0];
return $utf32 >= 0 && $utf32 <= 0x10FFFF
&& !($utf32 >= 0xD800 && $utf32 <= 0xDFFF)
&& !($utf32 >= 0xFDD0 && $utf32 <= 0xFDEF)
&& ($utf32 & 0xFFFF) < 0xFFFE;
}
sub printUtf32
{
my $utf32 = $_[0];
return sprintf(
"U+%04X", $utf32);
}
sub isValidBig5
{
my $big5 = $_[0];
my $big5_row = $big5 >> 8;
my $big5_column = $big5 & 0xFF;
return $big5_row >= 0x81 && $big5_row <= 0xFE
&& ($big5_column >= 0x40 && $big5_column <= 0x7E
|| $big5_column >= 0xA1 && $big5_column <= 0xFE);
}
sub printBig5
{
my $big5 = $_[0];
return sprintf(
"%04X", $big5);
}
sub printStats
{
my $used = $_[0];
my $space = $_[1];
return sprintf(
"%d/%d bytes (%.1f%%)",
$used,
$space,
$used * 100 / $space);
}
sub printSpaces
{
my $column_width = $_[0];
my $columns_per_line = $_[1];
my $
end = $_[2];
$output =
"";
for ($i = int($
end / $columns_per_line) * $columns_per_line;
$i < $
end;
++$i)
{
for ($j = 0; $j < $column_width; ++$j)
{
$output = $output .
" ";
}
}
return $output;
}
sub addMapping
{
my $utf32 = $_[0];
my $big5 = $_[1];
my $comp = $_[2];
$uni_plane = $utf32 >> 16;
$uni_page = ($utf32 >> 8) & 0xFF;
$uni_index = $utf32 & 0xFF;
if (!defined($uni_plane_used[$uni_plane])
|| !defined($uni_page_used[$uni_plane][$uni_page])
|| !defined($uni_map[$uni_plane][$uni_page][$uni_index]))
{
$uni_map[$uni_plane][$uni_page][$uni_index] = $big5;
$uni_plane_used[$uni_plane] = 1;
$uni_page_used[$uni_plane][$uni_page] = 1;
if ($comp != -1)
{
++$compat[$comp];
}
}
else
{
$big5_1 = $uni_map[$uni_plane][$uni_page][$uni_index];
print
"WARNING! Mapping ", printUtf32($utf32),
" to ",
printBig5($big5_1),
", NOT ", ($comp ?
"compat " :
""),
printBig5($big5),
"\n";
}
}
# Build mappings to track Unicode characters that are mapped from both Big5/
# CP950 and HKSCS:
{
$filename =
"BIG5.TXT";
open IN, (
"input/" . $filename) or die
"Cannot read " . $filename;
while (<IN>)
{
if (/(0x[0-9A-F][0-9A-F][0-9A-F][0-9A-F])[ \t]+(0x[0-9A-F]+)[ \t]+\
#.*$/)
{
$big5 = oct($1);
$utf32 = oct($2);
isValidBig5($big5)
or die
"Bad Big5 char " . printBig5($big5);
isValidUtf32($utf32)
or die
"Bad UTF32 char " . printUtf32($utf32);
if ($utf32 != 0xFFFD)
{
if (defined($underlying_big5[$utf32]))
{
print
"WARNING! In ", $filename,
", both ",
printBig5($underlying_big5[$utf32]),
" and ",
printBig5($big5),
" map to ", printUtf32($utf32),
"\n";
}
else
{
$underlying_big5[$utf32] = $big5;
}
}
}
}
close IN;
$filename =
"CP950.TXT";
open IN, (
"input/" . $filename) or die
"Cannot read " . $filename;
while (<IN>)
{
if (/(0x[0-9A-F][0-9A-F][0-9A-F][0-9A-F])[ \t]+(0x[0-9A-F]+)[ \t]+\
#.*$/)
{
$big5 = oct($1);
$utf32 = oct($2);
isValidBig5($big5)
or die
"Bad Big5 char " . printBig5($big5);
isValidUtf32($utf32)
or die
"Bad UTF32 char " . printUtf32($utf32);
if (defined($underlying_cp950[$utf32]))
{
print
"WARNING! In ", $filename,
", both ",
printBig5($underlying_cp950[$utf32]),
" and ",
printBig5($big5),
" map to ", printUtf32($utf32),
"\n";
}
else
{
$underlying_cp950[$utf32] = $big5;
}
}
}
close IN;
}
# The following are mapped by the underlying RTL_TEXTENCODING_BIG5 to some
# nonstandard Unicode points, so they are explicitly mentioned here to map
# to the standard Unicode PUA points. (In the other direction, the unofficial
# mappings from Unicode to RTL_TEXTENCODING_BIG5 C6A1--C7FE are harmless,
# since all Unicode characters involved are already covered by the official
# Big5-HKSCS mappings.)
$big5_map[0xC6][0xCF] = 0xF6E0; addMapping(0xF6E0, 0xC6CF, -1);
$big5_map[0xC6][0xD3] = 0xF6E4; addMapping(0xF6E4, 0xC6D3, -1);
$big5_map[0xC6][0xD5] = 0xF6E6; addMapping(0xF6E6, 0xC6D5, -1);
$big5_map[0xC6][0xD7] = 0xF6E8; addMapping(0xF6E8, 0xC6D7, -1);
$big5_map[0xC6][0xDE] = 0xF6EF; addMapping(0xF6EF, 0xC6DE, -1);
$big5_map[0xC6][0xDF] = 0xF6F0; addMapping(0xF6F0, 0xC6DF, -1);
# The following implements the mapping of Big5-HKSCS compatibility points
# (GCCS characters unified with other HKSCS characters) to Unicode. In the
# other direction, characters from Unicode's PUA will map to these Big5-HKSCS
# compatibility points. (See the first list in <http://www.info.gov.hk/
# digital21/eng/hkscs/download/big5cmp.txt>.)
$big5_map[0x8E][0x69] = 0x7BB8;
$big5_map[0x8E][0x6F] = 0x7C06;
$big5_map[0x8E][0x7E] = 0x7CCE;
$big5_map[0x8E][0xAB] = 0x7DD2;
$big5_map[0x8E][0xB4] = 0x7E1D;
$big5_map[0x8E][0xCD] = 0x8005;
$big5_map[0x8E][0xD0] = 0x8028;
$big5_map[0x8F][0x57] = 0x83C1;
$big5_map[0x8F][0x69] = 0x84A8;
$big5_map[0x8F][0x6E] = 0x840F;
$big5_map[0x8F][0xCB] = 0x89A6;
$big5_map[0x8F][0xCC] = 0x89A9;
$big5_map[0x8F][0xFE] = 0x8D77;
$big5_map[0x90][0x6D] = 0x90FD;
$big5_map[0x90][0x7A] = 0x92B9;
$big5_map[0x90][0xDC] = 0x975C;
$big5_map[0x90][0xF1] = 0x97FF;
$big5_map[0x91][0xBF] = 0x9F16;
$big5_map[0x92][0x44] = 0x8503;
$big5_map[0x92][0xAF] = 0x5159;
$big5_map[0x92][0xB0] = 0x515B;
$big5_map[0x92][0xB1] = 0x515D;
$big5_map[0x92][0xB2] = 0x515E;
$big5_map[0x92][0xC8] = 0x936E;
$big5_map[0x92][0xD1] = 0x7479;
$big5_map[0x94][0x47] = 0x6D67;
$big5_map[0x94][0xCA] = 0x799B;
$big5_map[0x95][0xD9] = 0x9097;
$big5_map[0x96][0x44] = 0x975D;
$big5_map[0x96][0xED] = 0x701E;
$big5_map[0x96][0xFC] = 0x5B28;
$big5_map[0x9B][0x76] = 0x7201;
$big5_map[0x9B][0x78] = 0x77D7;
$big5_map[0x9B][0x7B] = 0x7E87;
$big5_map[0x9B][0xC6] = 0x99D6;
$big5_map[0x9B][0xDE] = 0x91D4;
$big5_map[0x9B][0xEC] = 0x60DE;
$big5_map[0x9B][0xF6] = 0x6FB6;
$big5_map[0x9C][0x42] = 0x8F36;
$big5_map[0x9C][0x53] = 0x4FBB;
$big5_map[0x9C][0x62] = 0x71DF;
$big5_map[0x9C][0x68] = 0x9104;
$big5_map[0x9C][0x6B] = 0x9DF0;
$big5_map[0x9C][0x77] = 0x83CF;
$big5_map[0x9C][0xBC] = 0x5C10;
$big5_map[0x9C][0xBD] = 0x79E3;
$big5_map[0x9C][0xD0] = 0x5A67;
$big5_map[0x9D][0x57] = 0x8F0B;
$big5_map[0x9D][0x5A] = 0x7B51;
$big5_map[0x9D][0xC4] = 0x62D0;
$big5_map[0x9E][0xA9] = 0x6062;
$big5_map[0x9E][0xEF] = 0x75F9;
$big5_map[0x9E][0xFD] = 0x6C4A;
$big5_map[0x9F][0x60] = 0x9B2E;
$big5_map[0x9F][0x66] = 0x9F17;
$big5_map[0x9F][0xCB] = 0x50ED;
$big5_map[0x9F][0xD8] = 0x5F0C;
$big5_map[0xA0][0x63] = 0x880F;
$big5_map[0xA0][0x77] = 0x62CE;
$big5_map[0xA0][0xD5] = 0x7468;
$big5_map[0xA0][0xDF] = 0x7162;
$big5_map[0xA0][0xE4] = 0x7250;
$big5_map[0xFA][0x5F] = 0x5029;
$big5_map[0xFA][0x66] = 0x507D;
$big5_map[0xFA][0xBD] = 0x5305;
$big5_map[0xFA][0xC5] = 0x5344;
$big5_map[0xFA][0xD5] = 0x537F;
$big5_map[0xFB][0x48] = 0x5605;
$big5_map[0xFB][0xB8] = 0x5A77;
$big5_map[0xFB][0xF3] = 0x5E75;
$big5_map[0xFB][0xF9] = 0x5ED0;
$big5_map[0xFC][0x4F] = 0x5F58;
$big5_map[0xFC][0x6C] = 0x60A4;
$big5_map[0xFC][0xB9] = 0x6490;
$big5_map[0xFC][0xE2] = 0x6674;
$big5_map[0xFC][0xF1] = 0x675E;
$big5_map[0xFD][0xB7] = 0x6C9C;
$big5_map[0xFD][0xB8] = 0x6E1D;
$big5_map[0xFD][0xBB] = 0x6E2F;
$big5_map[0xFD][0xF1] = 0x716E;
$big5_map[0xFE][0x52] = 0x732A;
$big5_map[0xFE][0x6F] = 0x745C;
$big5_map[0xFE][0xAA] = 0x74E9;
$big5_map[0xFE][0xDD] = 0x7809;
$pua = 0;
$compat[0] = 0;
# 1993
$compat[1] = 0;
# 2000
$compat[2] = 0;
# 2001
$filename =
"big5-iso.txt";
open IN, (
"input/" . $filename) or die
"Cannot read " . $filename;
while (<IN>)
{
if (/^([0-9A-F]+) +([0-9A-F]+) +([0-9A-F]+) +([0-9A-F]+)$/)
{
$big5 = oct(
"0x" . $1);
$utf32_1993 = oct(
"0x" . $2);
$utf32_2000 = oct(
"0x" . $3);
$utf32_2001 = oct(
"0x" . $4);
isValidBig5($big5)
or die
"Bad Big5 char " . printBig5($big5);
isValidUtf32($utf32_1993)
or die
"Bad UTF32 char " . printUtf32($utf32_1993);
isValidUtf32($utf32_2000)
or die
"Bad UTF32 char " . printUtf32($utf32_2000);
isValidUtf32($utf32_2001)
or die
"Bad UTF32 char " . printUtf32($utf32_2001);
$utf32 = $surrogates ? $utf32_2001 : $utf32_2000;
if (defined($underlying_big5[$utf32])
|| defined($underlying_cp950[$utf32]))
{
if (defined($underlying_big5[$utf32])
&& defined($underlying_cp950[$utf32])
&& $underlying_big5[$utf32] == $underlying_cp950[$utf32]
&& $underlying_big5[$utf32] == $big5
||
defined($underlying_big5[$utf32])
&& !defined($underlying_cp950[$utf32])
&& $underlying_big5[$utf32] == $big5
||
!defined($underlying_big5[$utf32])
&& defined($underlying_cp950[$utf32])
&& $underlying_cp950[$utf32] == $big5)
{
# ignore
# Depending on real underlying mapping (cf.
# ../convertbig5hkscs.tab), it would be possible to save some
# table space by dropping those HKSCS code points that are
# already covered by the underlying mapping.
}
else
{
print
"XXX mapping underlying";
if (defined($underlying_big5[$utf32])
&& defined($underlying_cp950[$utf32])
&& $underlying_big5[$utf32] == $underlying_cp950[$utf32])
{
print
" Big5/CP950 ", printBig5($underlying_big5[$utf32]);
}
else
{
if (defined($underlying_big5[$utf32]))
{
print
" Big5 ", printBig5($underlying_big5[$utf32]);
}
if (defined($underlying_cp950[$utf32]))
{
print
" CP950 ", printBig5($underlying_cp950[$utf32]);
}
}
print
" and HKSCS ", printBig5($big5),
" to ",
printUtf32($utf32),
"\n";
}
}
if ($utf32 >= 0xE000 && $utf32 <= 0xF8FF)
{
++$pua;
}
$big5_row = $big5 >> 8;
$big5_column = $big5 & 0xFF;
if (defined($big5_map[$big5_row][$big5_column]))
{
die
"Bad Big5 mapping " . printBig5($big5);
}
$big5_map[$big5_row][$big5_column] = $utf32;
addMapping($utf32, $big5, -1);
if ($utf32_2001 != $utf32)
{
addMapping($utf32_2001, $big5, 2);
}
if ($utf32_2000 != $utf32 && $utf32_2000 != $utf32_2001)
{
addMapping($utf32_2000, $big5, 1);
}
if ($utf32_1993 != $utf32 && $utf32_1993 != $utf32_2000
&& $utf32_1993 != $utf32_2001)
{
addMapping($utf32_1993, $big5, 0);
}
}
}
close IN;
print $pua,
" mappings to PUA\n";
print $compat[0],
" 1993 compatibility mappings\n" if ($compat[0] != 0);
print $compat[1],
" 2000 compatibility mappings\n" if ($compat[1] != 0);
print $compat[2],
" 2001 compatibility mappings\n" if ($compat[2] != 0);
if (defined($uni_plane_used[0]) && defined($uni_page_used[0][0]))
{
for ($utf32 = 0; $utf32 <= 0x7F; ++$utf32)
{
if (defined($uni_map[0][0][$uni_index]))
{
$big5 = $uni_map[0][0][$utf32];
die
"Mapping " . printUtf32($utf32) .
" to " . printBig5($big5);
}
}
}
$filename = lc($id) .
".tab";
open OUT, (
"> " . $filename) or die
"Cannot write " . $filename;
{
$filename = lc($id).
".pl";
open IN, $filename or die
"Cannot read ". $filename;
$first = 1;
while (<IN>)
{
if (/^\
#!.*$/)
{
}
elsif (/^\
#(\*.*)$/)
{
if ($first == 1)
{
print OUT
"/", $1,
"\n";
$first = 0;
}
else
{
print OUT
" ", substr($1, 0, length($1) - 1),
"/\n";
}
}
elsif (/^\
# (.*)$/)
{
print OUT
" *", $1,
"\n";
}
elsif (/^\
#(.*)$/)
{
print OUT
" *", $1,
"\n";
}
else
{
goto
done;
}
}
done:
}
print OUT
"\n",
"#include \"sal/types.h\"\n",
"\n";
print OUT
"static sal_uInt16 const aImpl", $id,
"ToUnicodeData[] = {\n";
$big5_data_index = 0;
$big5_rows = 0;
$big5_chars = 0;
for ($big5_row = 0; $big5_row <= 255; ++$big5_row)
{
$big5_row_first = -1;
for ($big5_column = 0; $big5_column <= 255; ++$big5_column)
{
if (defined($big5_map[$big5_row][$big5_column]))
{
if ($big5_row_first == -1)
{
$big5_row_first = $big5_column;
}
$big5_row_last = $big5_column;
}
}
if ($big5_row_first != -1)
{
$big5_data_offsets[$big5_row] = $big5_data_index;
++$big5_rows;
print OUT
" /* row ", $big5_row,
" */\n";
$big5_row_surrogates_first = -1;
$big5_row_chars = 0;
$big5_row_surrogates = 0;
print OUT
" ", $big5_row_first,
" | (", $big5_row_last,
" << 8), /* first, last */\n";
++$big5_data_index;
print OUT
" ", printSpaces(7, 10, $big5_row_first);
$bol = 0;
for ($big5_column = $big5_row_first;
$big5_column <= $big5_row_last;
++$big5_column)
{
if ($bol == 1)
{
print OUT
" ";
$bol = 0;
}
if (defined($big5_map[$big5_row][$big5_column]))
{
$utf32 = $big5_map[$big5_row][$big5_column];
++$big5_row_chars;
if ($utf32 <= 0xFFFF)
{
printf OUT
"0x%04X,", $utf32;
}
else
{
++$big5_row_surrogates;
printf OUT
"0x%04X,",
(0xD800 | (($utf32 - 0x10000) >> 10));
if ($big5_row_surrogates_first == -1)
{
$big5_row_surrogates_first = $big5_column;
}
$big5_row_surrogates_last = $big5_column;
}
}
else
{
printf OUT
"0xffff,";
}
++$big5_data_index;
if ($big5_column % 10 == 9)
{
print OUT
"\n";
$bol = 1;
}
}
if ($bol == 0)
{
print OUT
"\n";
}
if ($big5_row_surrogates_first != -1)
{
print OUT
" ", $big5_row_surrogates_first,
", /* first low-surrogate */\n";
++$big5_data_index;
print OUT
" ", printSpaces(7, 10, $big5_row_surrogates_first);
$bol = 0;
for ($big5_column = $big5_row_surrogates_first;
$big5_column <= $big5_row_surrogates_last;
++$big5_column)
{
if ($bol == 1)
{
print OUT
" ";
$bol = 0;
}
$utf32 = 0;
if (defined($big5_map[$big5_row][$big5_column]))
{
$utf32 = $big5_map[$big5_row][$big5_column];
}
if ($utf32 <= 0xFFFF)
{
printf OUT
" 0,";
}
else
{
printf OUT
"0x%04X,",
(0xDC00 | (($utf32 - 0x10000) & 0x3FF));
}
++$big5_data_index;
if ($big5_column % 10 == 9)
{
print OUT
"\n";
$bol = 1;
}
}
if ($bol == 0)
{
print OUT
"\n";
}
}
$big5_chars += $big5_row_chars;
$big5_data_space[$big5_row]
= ($big5_data_index - $big5_data_offsets[$big5_row]) * 2;
$big5_data_used[$big5_row]
= (1 + $big5_row_chars + ($big5_row_surrogates == 0 ?
0 : 1 + $big5_row_surrogates))
* 2;
}
else
{
print OUT
" /* row ", $big5_row,
": --- */\n";
$big5_data_offsets[$big5_row] = -1;
}
}
print OUT
"};\n\n";
print
"big5 rows = ", $big5_rows,
", chars = ", $big5_chars,
"\n";
print OUT
"static sal_Int32 const aImpl", $id,
"ToUnicodeRowOffsets[] = {\n";
$big5_rowoffsets_used = 0;
for ($big5_row = 0; $big5_row <= 255; ++$big5_row)
{
if ($big5_data_offsets[$big5_row] == -1)
{
print OUT
" -1, /* row ", $big5_row,
" */\n";
}
else
{
print OUT
" ",
$big5_data_offsets[$big5_row],
", /* row ",
$big5_row,
"; ",
printStats($big5_data_used[$big5_row],
$big5_data_space[$big5_row]),
" */\n";
$big5_rowoffsets_used += 4;
}
}
print OUT
"};\n\n";
print OUT
"static sal_uInt16 const aImplUnicodeTo", $id,
"Data[] = {\n";
$uni_data_index = 0;
for ($uni_plane = 0; $uni_plane <= 16; ++$uni_plane)
{
if (defined($uni_plane_used[$uni_plane]))
{
for ($uni_page = 0; $uni_page <= 255; ++$uni_page)
{
if (defined($uni_page_used[$uni_plane][$uni_page]))
{
$uni_data_offsets[$uni_plane][$uni_page] = $uni_data_index;
print OUT
" /* plane ", $uni_plane,
", page ", $uni_page,
" */\n";
$uni_page_first = -1;
for ($uni_index = 0; $uni_index <= 255; ++$uni_index)
{
if (defined($uni_map[$uni_plane][$uni_page][$uni_index]))
{
if ($uni_page_first == -1)
{
$uni_page_first = $uni_index;
}
$uni_page_last = $uni_index;
}
}
$uni_data_used[$uni_plane][$uni_page] = 0;
print OUT
" ", $uni_page_first,
" | (", $uni_page_last,
" << 8), /* first, last */\n";
++$uni_data_index;
$uni_data_used[$uni_plane][$uni_page] += 2;
print OUT
" ", printSpaces(7, 10, $uni_page_first);
$bol = 0;
for ($uni_index = $uni_page_first;
$uni_index <= $uni_page_last;
++$uni_index)
{
if ($bol == 1)
{
print OUT
" ";
$bol = 0;
}
if (defined($uni_map[$uni_plane][$uni_page][$uni_index]))
{
$big5 = $uni_map[$uni_plane][$uni_page][$uni_index];
printf OUT
"0x%04X,", $big5;
$uni_data_used[$uni_plane][$uni_page] += 2;
}
else
{
print OUT
" 0,";
}
++$uni_data_index;
if ($uni_index % 10 == 9)
{
print OUT
"\n";
$bol = 1;
}
}
if ($bol == 0)
{
print OUT
"\n";
}
$uni_data_space[$uni_plane][$uni_page]
= ($uni_data_index
- $uni_data_offsets[$uni_plane][$uni_page]) * 2;
}
else
{
$uni_data_offsets[$uni_plane][$uni_page] = -1;
print OUT
" /* plane ", $uni_plane,
", page ", $uni_page,
": --- */\n";
}
}
}
else
{
print OUT
" /* plane ", $uni_plane,
": --- */\n";
}
}
print OUT
"};\n\n";
print OUT
"static sal_Int32 const aImplUnicodeTo", $id,
"PageOffsets[] = {\n";
for ($uni_plane = 0; $uni_plane <= 16; ++$uni_plane)
{
if (defined($uni_plane_used[$uni_plane]))
{
$uni_pageoffsets_used[$uni_plane] = 0;
$uni_data_used_sum[$uni_plane] = 0;
$uni_data_space_sum[$uni_plane] = 0;
for ($uni_page = 0; $uni_page <= 255; ++$uni_page)
{
$offset = $uni_data_offsets[$uni_plane][$uni_page];
if ($offset == -1)
{
print OUT
" -1, /* plane ",
$uni_plane,
", page ",
$uni_page,
" */\n";
}
else
{
print OUT
" ",
$offset,
", /* plane ",
$uni_plane,
", page ",
$uni_page,
"; ",
printStats($uni_data_used[$uni_plane][$uni_page],
$uni_data_space[$uni_plane][$uni_page]),
" */\n";
$uni_pageoffsets_used[$uni_plane] += 4;
$uni_data_used_sum[$uni_plane]
+= $uni_data_used[$uni_plane][$uni_page];
$uni_data_space_sum[$uni_plane]
+= $uni_data_space[$uni_plane][$uni_page];
}
}
}
else
{
print OUT
" /* plane ", $uni_plane,
": --- */\n";
}
}
print OUT
"};\n\n";
print OUT
"static sal_Int32 const aImplUnicodeTo",
$id,
"PlaneOffsets[] = {\n";
$uni_page_offset = 0;
$uni_planeoffsets_used = 0;
$uni_pageoffsets_used_sum = 0;
$uni_pageoffsets_space_sum = 0;
$uni_data_used_sum2 = 0;
$uni_data_space_sum2 = 0;
for ($uni_plane = 0; $uni_plane <= 16; ++$uni_plane)
{
if (defined ($uni_plane_used[$uni_plane]))
{
print OUT
" ",
$uni_page_offset++,
" * 256, /* plane ",
$uni_plane,
"; ",
printStats($uni_pageoffsets_used[$uni_plane], 256 * 4),
", ",
printStats($uni_data_used_sum[$uni_plane],
$uni_data_space_sum[$uni_plane]),
" */\n";
$uni_planeoffsets_used += 4;
$uni_pageoffsets_used_sum += $uni_pageoffsets_used[$uni_plane];
$uni_pageoffsets_space_sum += 256 * 4;
$uni_data_used_sum2 += $uni_data_used_sum[$uni_plane];
$uni_data_space_sum2 += $uni_data_space_sum[$uni_plane];
}
else
{
print OUT
" -1, /* plane ", $uni_plane,
" */\n";
}
}
print OUT
" /* ",
printStats($uni_planeoffsets_used, 17 * 4),
", ",
printStats($uni_pageoffsets_used_sum, $uni_pageoffsets_space_sum),
", ",
printStats($uni_data_used_sum2, $uni_data_space_sum2),
" */\n};\n";
close OUT;
